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. 2017 Dec;18(8):686-695.
doi: 10.1111/pedi.12420. Epub 2016 Aug 2.

Severity of clinical presentation in youth with type 1 diabetes is associated with differences in brain structure

Alejandro F Siller  1 Heather Lugar  2 Jerrel Rutlin  2 Jonathan M Koller  2 Katherine Semenkovich  3 Neil H White  3   4   5 Ana Maria Arbelaez  3   5 Joshua Shimony  6 Tamara Hershey  2   5   7
Affiliations

Severity of clinical presentation in youth with type 1 diabetes is associated with differences in brain structure

Alejandro F Siller et al. Pediatr Diabetes. 2017 Dec.

Abstract

Objective: Differences in cognition and brain structure have been found in youth with type 1 diabetes compared with controls, even after relatively short disease duration. To determine whether severity of clinical presentation contributes to these differences, we obtained structural magnetic resonance imaging (MRI) scans in youth ages 7-17 who were either newly diagnosed with type 1 diabetes (<3.5 months from diagnosis, n = 46) or a sibling without diabetes (n = 28).

Research design and methods: Severity of presentation was measured by the presence of diabetic ketoacidosis (DKA) and degree of hyperglycemia exposure [hemoglobin A1c (HbA1c)] at diagnosis. MRI were obtained using T1-weighted, T2-weighted, and diffusion-weighted sequences.

Results: Within the group with type 1 diabetes, 12 subjects presented in DKA and 34 did not. After controlling for age, sex, and multiple comparisons, the type 1 diabetes group had lower volume in the left temporal-parietal-occipital cortex compared with controls. Within the type 1 diabetes group, DKA at presentation was associated with lower radial, axial, and mean diffusivity (MD) throughout major white matter tracts and higher HbA1c was associated with lower hippocampal, thalamic, and cerebellar white matter volumes, lower right posterior parietal cortical thickness, and greater right occipital cortical thickness.

Conclusion: These data suggest that severity of clinical presentation is an important factor in predicting brain structural differences in youth with type 1 diabetes approximately 3 months after diagnosis.

Keywords: brain structure; diabetic ketoacidosis; type 1 diabetes.

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Conflict of interest statement

Duality of Interest: N.H.W. receives compensation for serving on Data Monitoring Committees for NovoNordisk and Daiichi Sankyo. The other authors have no conflicts of interest to report.

Figures

Figure 1
Figure 1
Relationship between HbA1c at diagnosis and volume of the (A) thalamus, (B) hippocampus and (C) cerebellar white matter in the type 1 diabetes group after controlling for intracranial volume, age and sex.
Figure 2
Figure 2
A) Region of lower volume in the left temporal-parietal-occipital junction (in blue) in the type 1 diabetes group compared to controls, controlling for age and sex. B) Thickness of left temporal-parietal-occipital region in diabetic ketoacidosis (DKA) subgroups. Asterisk = different from those without DKA (DKA−) (p=.05) and control (p<.001) groups. C) Region of lower cortical thickness in the posterior parietal cortex (in blue) and higher cortical thickness in occipital cortex (in red) associated with higher HbA1c at diagnosis. The occipital region was not reliable in post-hoc analyses.
Figure 3
Figure 3
Diffusivity differences in diabetic ketoacidosis (DKA) subgroups. Mean white matter skeleton shown in green, with red-yellow heat maps showing areas where radial diffusivity (RD) (A) or axial diffusivity (AD) (B) were significantly lower (p<0.05) in youth with type 1 diabetes who presented in DKA at diagnosis compared to those without DKA. All results shown are the result of voxel-wise independent samples t-tests, covarying age and sex and corrected for multiple comparison.
See this image and copyright information in PMC

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